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Analytical Modeling in Support of the Development of Fiber Reinforced Ceramic Composite Materials for Re-Heater Burners

Published online by Cambridge University Press:  15 February 2011

J.J. Kibler  and
S.G. DiPietro
J.J. Kibler
Affiliation:
Materials Sciences Corporation 500 Office Center Drive, Suite 250 Fort Washington, PA 19034
S.G. DiPietro
Affiliation:
Textron Specialty Materials Lowell, MA 01851
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Abstract

Development of Continuous Fiber reinforced Ceramic Composite (CFCC) materials is a process of identifying components which will benefit from CFCC properties, and defining appropriate composite constructions which will provide materials which will meet the structural and thermal requirements of the application. Materials Sciences Corporation (MSC) has been providing analytical support to Textron Specialty Materials in the development of re-heated tubes for metal reheating furnaces. As part of this support, a study has been made of the sensitivity of composite properties to fiber orientation as well as a number of matrix properties which control the stress-strain behavior of the composite.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 365: Symposium M – Ceramic Matrix Composites–Advanced High-Temperature Structural Materials , 1994 , 185
Copyright
Copyright © Materials Research Society 1995

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References

1. Kibler, J.J., Jones, M., and DiPeitro, S., “Modeling of SiC/Si3N4 Composite Materials”, Proceedings of the American Ceramics Society Annual Meeting, Cocoa Beach, 1994.Google Scholar
2. Kibler, J.J., Jones, M.L., and Yen, C.F., “A Nonlinear Behavior Model For SiC/SiC Composites” Proceedings of the Materials Research Society fall meeting, 1994.Google Scholar
3. Kibler, J.J., “Integration of Theoretical and Practical Micro Mechanics Procedures into the Design and Analysis of Composite Materials”, Proceedings of ICCM/VII, COMPOSITES, Design, Manufacture, and Application, Edited by Tsai, S. W. and Springer, G. S., ISBN 0-938994-60-3, 1991.Google Scholar